|Publication number||US7027608 B2|
|Application number||US 09/341,994|
|Publication date||Apr 11, 2006|
|Filing date||Jul 17, 1998|
|Priority date||Jul 18, 1997|
|Also published as||CA2295750A1, DE69836635D1, DE69836635T2, EP0997057A1, EP0997057B1, US20030002700, US20050190939, WO1999004601A1|
|Publication number||09341994, 341994, PCT/1998/14795, PCT/US/1998/014795, PCT/US/1998/14795, PCT/US/98/014795, PCT/US/98/14795, PCT/US1998/014795, PCT/US1998/14795, PCT/US1998014795, PCT/US199814795, PCT/US98/014795, PCT/US98/14795, PCT/US98014795, PCT/US9814795, US 7027608 B2, US 7027608B2, US-B2-7027608, US7027608 B2, US7027608B2|
|Inventors||Robert J. Fretz, Cliff Miller, David Barnard|
|Original Assignee||Gn Resound North America|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (41), Referenced by (70), Classifications (13), Legal Events (4)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This application claims the benefit of Provisional Application No. 60/053,031, filed Jul. 18, 1997.
1. Field of the Invention
The present invention relates to a behind the ear hearing aid system, and more particularly, the invention relates to a hearing aid system having an open ear canal hearing aid eartip.
2. State of the Related Art
Present day hearing aids have been developed to correct the hearing of users having various degrees of hearing impairments. Generally, hearing loss is not uniform over the entire audio frequency range. For example, hearing loss for sounds at high audio frequencies (above approximately 1,000 Hz) will be more pronounced for some people with certain common hearing impairments, while hearing loss for sounds at lower frequencies (below approximately 1,000 Hz) will be more pronounced for people having different hearing impairments.
The largest population of people having hearing impairments include those having mild hearing losses with normal or nearly normal hearing in the low frequency ranges and hearing losses in the higher frequency ranges. The most problematic sounds for people having such mild hearing losses are high frequency sounds at low amplitudes (soft, high-pitched sounds).
The traditional approach for correcting hearing impairments has been to employ either an electronic “in the ear” (ITE) hearing aid device inserted into the ear of the user or a “behind the ear” (BTE) hearing aid device attached behind the ear. The ITE hearing aid devices are custom made to fit within the ear and ear canal of the particular user. The BTE hearing aid devices include a flexible plastic tube connecting a behind the ear device to an ear mold placed within the ear. Both the ITE and BTE hearing aid devices tend to block the ear canal so that little or no sound can reach the ear in a natural, unaided manner.
Hearing aid systems which block the ear canal almost entirely cause a problem known as the occlusion effect. The occlusion effect is caused by the increased transmission of sound by bone conduction when the ear canal is blocked and ear conduction is impeded. This occlusion effect results in sounds which are unnatural and uncomfortable for the user. In particular, the user's voice sounds unnaturally higher than normal.
Some hearing aid systems have been made employing vents in the ear mold which reduce the occlusion effect partially. These vents allow the user to hear some natural sounds through a device positioned in the ear. Although vents provide some improvement in decreasing the occlusion effect, distortion of the user's voice remains a problem.
In an effort to alleviate some of the aforementioned problems, some BTE hearing aids have been designed with a flexible tube that extends into the ear canal and is held in place within the ear canal by an ear mold that leaves the ear canal generally unobstructed. Although the relatively open ear canal of these devices overcomes some of the occlusion effect, these hearing aids suffer from a number of other significant problems. For example, the BTE hearing aids employ a rigid plastic ear hook to secure the BTE device on the ear. The ear hook connects a hearing aid casing positioned behind the ear to a flexible plastic tubing which extends into the ear. The relatively large and rigid ear hook and the connection between the ear hook and the flexible tubing are visible and aesthetically unpleasing. The large size and visibility of the BTE hearing aid components results in a cosmetically unattractive device.
A flexible tube is used which can be cut to an appropriate length for a particular user. The ear mold which secures the end of the flexible hearing aid tube within the ear canal has to be custom manufactured to fit the user's ear to sufficiently secure the hearing aid tube in place in the ear canal and prevent the ear mold from falling out of the ear, for example, when the user is jogging. The custom made ear mold adds to the cost of the device and the time needed to fit the hearing aid.
There are some stock ear canal eartips available which are generally used during a trial period when the hearing aid is being tested or while the ear mold is being made. Some of these stock ear canal eartips are formed of hard materials, some are formed of solid rubber, and some are formed of foam. In general, stock ear canal eartips which are currently available have problems with holding the end of the flexible hearing aid tube securely in place. When these stock ear canal eartips fit tight enough to hold the tube in the ear they are usually uncomfortable.
Accordingly it would be desirable to address the above-described problems with a BTE hearing aid which avoids the occlusion effect, can be used without an expensive custom made ear mold, and provides an aesthetically pleasing and comfortable device.
The present invention relates to a hearing aid system having a hearing aid case positioned behind the ear and a preformed tube conducting sound from the hearing aid case to the ear canal. A combination of the preformed tube and an eartip holds the hearing aid in place comfortably and securely without the need for a customized ear mold or an ear hook.
In accordance with one aspect of the present invention, a hearing aid system includes a hearing aid case, a tube having a preformed shape connected to the hearing aid case, and an eartip. The hearing aid case is configured to be worn behind the ear of a user and contains a microphone, a processor unit, and a speaker for delivering amplified sounds to an output connector of the case. The tube has a first end for attaching to the output connector of the case and a second end for attaching to an eartip. The preformed shape of the tube includes a first bend extending from the case over the top of the ear of the user and a second bend extending from an outside of the ear into an ear canal of the user. The eartip is configured to fit within the ear canal while allowing sounds outside and within the ear to pass through the ear canal around the eartip.
According to an additional aspect of the present invention, a hearing aid tube for connecting a case of a behind the ear hearing aid to an eartip has an inner diameter of about 0.9 mm or less and an outer diameter of about 1.6 mm or less. The tube is preferably formed of a material with a durometer of 65 to 85 Shore D.
In accordance with another aspect of the present invention, a hearing aid case includes a case body configured to be worn behind the ear of a user, a battery compartment within the case, and a tube attachment end for connecting the case body to a hearing aid tube for delivering amplified sounds from the case body to an ear canal of the user. The case body contains a microphone, a processor unit, and a speaker. The tube attachment end includes an end surface for abutting an end of the hearing aid tube, a nipple extending from the end surface and configured to be received in the end of the hearing aid tube, the nipple having a longitudinal axis, a side surface for abutting a side surface of the hearing aid tube, and a key extending along the side surface in a direction substantially parallel to the longitudinal axis of the nipple. The key is arranged to maintain a proper orientation between the case body and the hearing aid tube when the hearing aid tube is connected to the case body.
According to an additional aspect of the present invention, a kit of parts for assembling hearing aids includes a plurality of tubes, a plurality of eartips for connection to the ear canal end of the tubes and configured to fit within the ear canal while allowing sound to pass through the ear canal around the eartip, and a plurality of behind the ear hearing aid cases including different sound processing components for connection to the tubes. The plurality of tubes each have a preformed shape including a hook for extending from the hearing aid case over a top of an ear of a user, a run extending from the top of the ear to the ear canal, and an ear canal end extending into the ear canal of the user. The plurality of tubes differ in a length of the run or a length of the ear canal end.
According to a further aspect of the present invention, a kit of parts for a behind the ear hearing aid includes a hearing aid housing containing amplification components, an eartip configured to fit within an ear canal of a user while allowing sound to pass through the ear canal around the eartip, a hearing aid tube having a first end configured to be connected to the hearing aid housing and a second end configured to be inserted into the eartip, and an inserting tool for inserting the second end of the hearing aid tube into the ear canal eartip. The inserting tool includes an elongated holder with an elongated recess configured to received a portion of the hearing aid tube adjacent to the second end.
According to another further aspect of the present invention, a hearing aid device includes an eartip adapted to be inserted into a human ear canal and to engage an anatomical structure of the canal, and a tube having a first end adapted to be connected to a source of sound and a second end adapted to be connected to the eartip. The tube is shaped to have a portion which engages the ear and a portion which extends into the ear canal. The tube has sufficiently rigidity to position and hold the eartip in the ear canal when the tube is engaged with the ear.
The invention will be described in greater detail with reference to the preferred embodiments illustrated in the accompanying drawings, in which like elements bear like reference numerals, and wherein:
A hearing aid system according to the present invention includes a hearing aid case 10 which is designed to be positioned behind the ear of a user, a tube 12 for conducting sound from the case to the ear canal of the user, and an eartip 14 for anchoring the end of the tube within the ear canal of the user. The tube 12 is formed in a preformed shape of a material with sufficient rigidity to support the hearing aid in a proper position on the user's ear. The eartip 14 may be one of several different designs shown in
The system is designed to be particularly useful for those users experiencing mild to moderate hearing loss as an alternative to the known devices which may be uncomfortable, very visible, and expensive. A combination of the light weight and small size of the case 10, the rigidity and shape of the preformed tube 12, and the features of the eartips 14 for anchoring the tube in the ear canal allow the system to be held in place securely without the need for either an aesthetically unpleasing ear hook or an expensive and large custom made ear mold.
The tube 12 has a first end 16 which is configured to be attached to the hearing aid case 10 and a second end 18 which is configured to be inserted into the eartip 14. The tube 12 has a preformed shape which is shown in the views of
A distance between a top of the hook portion 20 and a lowest part of the tube 12 where the tube bends to enter the ear canal is called the run and has a run length LR. A distance between the point where the tube bends to enter the ear canal and the second end 18 of the tube is called a duck in length LD. The appropriate run length LR and duck in length LD will vary somewhat between users. Accordingly, a tube 12 having the same general curvature is preferably provided in different sizes by providing two or more different run lengths LR and two or more duck in lengths LD to accommodate different users. In accordance with a preferred embodiment of the invention, the run length LR can be varied between about 3.0 and 3.45 cm and the duck in length LD can be varied between about 1.4 and 1.7 cm.
The tube 12 is formed in the shape described above by any known preforming process, such as, heat forming or UV light forming. The tube is preferably formed by fixing a connector member 28 at the first end 16 of the tube and fixing a honey dipper member 30 at the second end 18 of the tube. The connector member 28 and the honey dipper member 30 shown in
One method of improving the memory characteristics of the hearing aid tube 12 of the present invention is by electron beam radiation of the tube after the tube has been formed in the desired shape and heated to retain the shape. The cross linking established by the electron beam gives the tube a permanent memory of the desired shape that is maintained even in the presence of heat or long periods of deformation.
The tube 12 is formed with an outer diameter of about 1.0 to 1.6 mm, preferably about 1.2 mm and an inner diameter of about 0.5 to 0.9 mm, preferably about 0.7 mm. This is substantially smaller than the flexible tubing used in known hearing aids which has outer diameters of about 3.0 mm. The known tubing at about twice the size of the tubing of the present invention is very visible. Although there is a trade-off between inner tube diameter and sound level output of the tube, tubes having an inner diameter of as small as about 0.5 mm have been found to provide sufficient sound level output for hearing aids designed for mild and moderate hearing loss users.
The material of the tube 12 may be any material which can be formed in a preformed shape and exhibits sufficient rigidity to hold the eartip 14 within the ear canal and retains it's shape when positioned on the ear. Examples of tube materials include FEP Teflon, Nylon, PEBAX, silicone, polyurethane, PTFE (polytetrafluoroethylene), EVA (ethylvinylacetate), and the like. The material of the tube 12 has a shore hardness of about 65 to 85 Shore D, preferably about 72 Shore D. The relative rigidity of the tube 12 allows the tube to apply a torque to the eartip 14 to maintain the eartip in a position in which the eartip is pressed against an anatomical feature within the ear canal. This ability to apply a torque to the eartip 14 with the tube 12 provides a substantial improvement over flexible tubing used in known BTE hearing aids in which the ear mold must fix the end of the tube in the ear and the tube provides no retention or support of the hearing aid device.
As shown in
The hearing aid case 10 as shown in
The attachment end 32 of the case 10 includes a nipple 36 through which sound is conducted from a speaker inside the case into the tube 12. The nipple 36 includes an annular retention ring 38 which allows the connector member 28 of the tube to snap onto the nipple. The attachment end also includes a rectangular key member 40 which corresponds with a keyway 46 in the connector member 28 to insure that a proper orientation between the case 10 and the tube 12 is achieved when the tube is snapped onto the case.
The case 10 encloses the electronic components including a microphone, a processor unit, and a speaker for delivering amplified sounds to the tube 12. One example of a system for amplification of sounds includes a compressor which adjusts the gain as a function of an amplitude level detected, and is described in U.S. patent application Ser. No. 08/781,714 which was filed Jan. 10, 1997 and is incorporated herein by reference. According to the present invention, multiple hearing aid cases may be provided with processors having different frequency responses for use by users having different hearing losses. Further, the cases may be provided in a plurality of colors for aesthetic or color coding purposes.
The connector member 28 and the honey dipper member 30 are illustrated in further detail in
The honey dipper member 30 is a cylindrical member having three annular ribs 48. The ribs 48 each have an angled or tapered forward surface 50 which assists in inserting the honey dipper member 30 into one of the eartips 14. The connector member 28 and the honey dipper member 30 are preferably formed of a material which is flexible enough to slide over the retention ring 38 but rigid enough to hold the tube securely once in place. Materials having durometers of about 25 to 60 Shore D, preferably about 40 Shore D provide the desired flexibility.
The shoulder 92 has a first surface 94 which abuts the eartip 14 when the eartip is fully installed on the tube 12. This visual and tactile indication of proper positioning of the eartip 14 on the tube 12 guides the user in proper installation. Improper installation of the eartip 14 may result in the eartip becoming separated from the tube 12 in the ear canal.
The shoulder 92 also has a second surface 96, opposite the first surface 94, which gives the user something to grasp when installing the eartip 14 and allows the user to push the eartip and tube into the ear by engaging the second surface with the finger tip or fingernail.
The sleeve 90 extends a distance of about 1.2 to 1.5 cm, preferably about 1.27 cm along the tube 12. This distance is generally less than or equal to the duck in length LD of the tube. The sleeve 90 is preferably formed of the same or a similar material and color as the tube 12 to maintain cosmetics. However, during use, the sleeve 90 will generally be hidden within the ear and the ear canal.
The eartips 14 for connection to the honey dipper member 30, 30 a or the tube 12 are described below with respect to
A bud-shaped hearing aid eartip 14 a is illustrated in
Another variation of the flower eartip is the webbed flower eartip 14 c of
A fourth eartip design is the guppie-shaped eartip 14 d of
A fifth eartip design shown in
A further eartip design shown in
The dome-shaped eartip 14 f also includes a wax guard 110 in the form of an integral bridge member which extends substantially perpendicular to the U-shaped groove 108 a. The wax guard 110 is an arch shaped member which serves as a barrier for direct entry of wax into the through bore 106. Although the preferred embodiment of the dome-shaped eartip 14 f includes the wax guard 110, the eartip may also be formed without a wax guard, with a wax flap as shown in
The dome-shaped eartip 14 f may be provided in different sizes with varying size skirts 102. The eartip 14 f functions similar to the guppie-shaped eartip 14 d or flower-shaped eartip 14 b with the skirt 102 grabbing under the tragus or around the first bend in the ear canal.
A final eartip design shown in
The plurality of different eartip shapes are provided because the shape of the ear canal and sensitivity differs from one user to another. For example, some users seem to be more sensitive to pressure in an area behind the first bend in the ear canal. For these users the guppie-shaped eartip 14 d may be most comfortable because it does not contact this area. In addition, eartips may be provided in different sizes to accommodate differences in the anatomy of users.
The eartips 14 are formed of a resilient material which is clear or darkly colored to be less visible. The eartip material may be a soft elastomer, such as silicone rubber or other soft plastic. The eartip material preferably has a durometer of about 30 Shore A. Alternatively, the eartips 14 may be formed of a foam material. In particular, foam eartips may be used to provide a significant blockage of the ear canal for users needing high gains where other eartips do not provide enough occlusion of the canal.
The hearing aid system which has been described above provides significant advantages in user comfort and aesthetics over known systems. A combination of the light weight case 10, the relatively rigid and smaller shaped tube 12 and the comfortable eartip 14 provide a secure and comfortable fit. The small transparent preformed tube 12 is substantially more discrete than the ear hook and tube combination used in the known system.
While the invention has been described in detail with reference to the preferred embodiments thereof, it will be apparent to one skilled in the art that various changes and modifications can be made an equivalents employed, without departing from the present invention.
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|US20140016808 *||Jul 13, 2012||Jan 16, 2014||Sreekant Cherukuri||User adjustable open-fit tubing system for a hearing aid and method for its use|
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|US20150010184 *||Jul 7, 2014||Jan 8, 2015||Oticon A/S||Coupling member and hearing system using it|
|US20150055809 *||Jul 22, 2014||Feb 26, 2015||Oticon A/S||Integrated tube and dome for thin tube bte|
|US20150139474 *||Nov 18, 2013||May 21, 2015||3M Innovative Properties Company||Concha-fit electronic hearing protection device|
|EP1874093A2 *||Jun 21, 2007||Jan 2, 2008||Siemens Audiologische Technik GmbH||Hearing aid with a fastener for a hearing tube|
|WO2011098153A1||Apr 20, 2010||Aug 18, 2011||Siemens Medical Instruments Pte. Ltd.||Behind-the-ear hearing aid having a plug-in connector|
|U.S. Classification||381/330, 381/322|
|International Classification||H04R25/00, H04R25/02|
|Cooperative Classification||H04R25/654, H04R25/658, H04R2225/021, H04R25/65, H04R25/656, H04R2225/63, H04R2460/09|
|European Classification||H04R25/65, H04R25/65B3|
|Oct 28, 1999||AS||Assignment|
Owner name: RESOUND CORPORATION, CALIFORNIA
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:FRETZ, ROBERT J.;MILLER, CLIFF;BARNARD, DAVID;REEL/FRAME:010374/0877;SIGNING DATES FROM 19991011 TO 19991013
|Sep 26, 2001||AS||Assignment|
Owner name: GN RESOUND NORTH AMERICA CORPORATION, CALIFORNIA
Free format text: CHANGE OF NAME;ASSIGNOR:SHENNIB, ADNAN A.;REEL/FRAME:012188/0550
Effective date: 20000727
|Sep 11, 2009||FPAY||Fee payment|
Year of fee payment: 4
|Sep 26, 2013||FPAY||Fee payment|
Year of fee payment: 8